Paul Dimotakis, NASA's chief technologist at Pasadena's Jet Propulsion Laboratory, believes areas with high winds could produce 500-800 watts of electricity per square meter. While a bit less efficient than solar -- it generates roughly 1 kilowatt per square meter -- wind energy can be converted to electricity at a lower cost. Image from m.prinke

Winds tend to be stronger over the ocean because there aren't any hills, mountains or other physical objects to block their movement. These maps could make floating ocean wind farms a distinct possibility, according to Tim Liu, QuikSTAT's team science leader at JPL. The farms could be placed in regions that experience continuous strong wind activity -- which are readily identifiable from the satellite data.

Originally launched in 1999, QuikSTAT helps track the speed, direction and strength of winds near the sea surface; its data can be used to predict storms and improve the accuracy of weather forecasts. Climate scientists and modelers have often used its data to study the interaction between ocean winds and weather patterns influenced by the currents and sea surface heat exchange.

The UK, more so than most countries, has been on top of this for a while now. Britain and Scotland have made some major inroads in developing their offshore wind capacity. Prime Minister Gordon Brown recently unveiled an ambitious new green agenda stipulating that the UK would increase its offshore wind capacity thirty-fold to meet its 2020 renewable energy targets.